Paper I from 1998 is attached.
There is a complete set of answers for this paper here.
This paper is reproduced to support SQA qualifications on a non-commercial basis according to SQA conditions of use.
with mr mackenzie
Paper I from 1998 is attached.
There is a complete set of answers for this paper here.
This paper is reproduced to support SQA qualifications on a non-commercial basis according to SQA conditions of use.
This amazing footage of the Saturn V rocket launch for the Apollo11 moon landing mission has been put online by Mark Gray. The video provides an extra dimension to the launch photograph in my earlier post about Newton’s 3rd law of motion. While that picture shows an enormous plume of gas being forced out of each rocket exhaust, the video below demonstrates the heat of the gases and the effect they have on the structure of the launch pad itself.
Apollo 11 Saturn V Launch (HD) Camera E-8 from Mark Gray on Vimeo.
Paper I from 1997 is attached.
There is a complete set of answers for this paper here.
This paper is reproduced to support SQA qualifications on a non-commercial basis according to SQA conditions of use.
I found a great set of summary notes provided by the Physics Department at James Gillespie’s High School in Edinburgh. They cover the entire course, so are quite long. The diagrams are very clear and I would recommend working your way through them as part of your preparation for the May exams.
The notes are in a pdf file so they will work with iTunes or you can download them by clicking on the link below.
Multiple choice paper I from 1996.
There is a complete set of answers for this paper here.
This paper is reproduced to support SQA qualifications on a non-commercial basis according to SQA conditions of use.
Today we looked at emission spectra from different light sources; mercury, sodium, cadmium and oxygen discharge tubes, using a handheld spectroscope.
Here is a video that shows you how to make a basic spectroscope at home. There are lots of guides like this online. You might prefer to make a larger spectroscope by using a Pringles tub rather than an old toilet roll holder as the main tube.
I have attached the handout on colour and emission of light from different elements below.
This is the multiple choice paper from 1995.
There is a complete set of answers for this paper here.
This paper is reproduced to support SQA qualifications on a non-commercial basis according to SQA conditions of use.
Here is paper I from 1993.
There is a complete set of answers for this paper here.
This paper is reproduced to support SQA qualifications on a non-commercial basis according to SQA conditions of use.
Here is the ipod video version of the ray diagram tutorial for objects more than 2 focal lengths from the lens.
This post is for Intermediate 2 only.
The final situation we need to consider is when the object is located more than two focal lengths away from the convex lens. The diagram is similar to the previous examples but needs additional points marked on the optic axis.
ray diagram for distance > 2f from mr mackenzie on Vimeo.